Quenching rates for NO2 (Ã 2B2) from fluorescence decay measurements

We report rate coefficients for electronic quenching of NO(A 2~+ ) by NO(X 2I-I), CO2, Ar and He measured at high temperature behind reproducible shock waves. NO and CO2 are efficient quenchers at temperatures between 300 and 2100 K while the rare gases quench much less efficiently. We develop a mod

Time-resolved laser-induced fluorescence is used to monitor the population in excited rovibronic levels of the A 'A, state of CzH2 in u; ~0 to 4. Double-exponential fluorescence decays are observed in all excitation lines. From the pressure-dependent decay rates, zero-pressure lifetimes and selfquen

Tie-resolved fluorescence laser-induced spectroscopy was used to examine the quenching of the vibrational levels v = 0 and u = 1 of N;(B \*C:) by N2\_ The rate coefficients of the quenching reactions are found to be constant over the tempera ture range 300-500 K. The quenching constant for the u = 1

Time-resolved fluorescence hscr-induced spectroscopy was used to determine the quencbin~ rates of the vibrations1 Icvets u' = 0,l and 2 of NG(B \*f+ \_,,) bv I& and Ne. For bolt2 quenchers rate constants mz found to base a depcndenoz upon \_ the vibrational escitation of the Ievef. Tlie radiative Ii